/* Copyright (C) 2000 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "mysys_priv.h" #include "mysys_err.h" #include #include #include #include /* The code below implements this functionality: - Initializing charset related structures - Loading dynamic charsets - Searching for a proper CHARSET_INFO using charset name, collation name or collation ID - Setting server default character set */ bool my_charset_same(CHARSET_INFO *cs1, CHARSET_INFO *cs2) { return ((cs1 == cs2) || !strcmp(cs1->csname,cs2->csname)); } static uint get_collation_number_internal(const char *name) { CHARSET_INFO **cs; for (cs= all_charsets; cs < all_charsets+array_elements(all_charsets)-1 ; cs++) { if ( cs[0] && cs[0]->name && !my_strcasecmp(&my_charset_latin1, cs[0]->name, name)) return cs[0]->number; } return 0; } static bool init_state_maps(CHARSET_INFO *cs) { uint i; uchar *state_map; uchar *ident_map; if (!(cs->state_map= (uchar*) my_once_alloc(256, MYF(MY_WME)))) return 1; if (!(cs->ident_map= (uchar*) my_once_alloc(256, MYF(MY_WME)))) return 1; state_map= cs->state_map; ident_map= cs->ident_map; /* Fill state_map with states to get a faster parser */ for (i=0; i < 256 ; i++) { if (my_isalpha(cs,i)) state_map[i]=(uchar) MY_LEX_IDENT; else if (my_isdigit(cs,i)) state_map[i]=(uchar) MY_LEX_NUMBER_IDENT; #if defined(USE_MB) && defined(USE_MB_IDENT) else if (my_mbcharlen(cs, i)>1) state_map[i]=(uchar) MY_LEX_IDENT; #endif else if (my_isspace(cs,i)) state_map[i]=(uchar) MY_LEX_SKIP; else state_map[i]=(uchar) MY_LEX_CHAR; } state_map[(uchar)'_']=state_map[(uchar)'$']=(uchar) MY_LEX_IDENT; state_map[(uchar)'\'']=(uchar) MY_LEX_STRING; state_map[(uchar)'.']=(uchar) MY_LEX_REAL_OR_POINT; state_map[(uchar)'>']=state_map[(uchar)'=']=state_map[(uchar)'!']= (uchar) MY_LEX_CMP_OP; state_map[(uchar)'<']= (uchar) MY_LEX_LONG_CMP_OP; state_map[(uchar)'&']=state_map[(uchar)'|']=(uchar) MY_LEX_BOOL; state_map[(uchar)'#']=(uchar) MY_LEX_COMMENT; state_map[(uchar)';']=(uchar) MY_LEX_SEMICOLON; state_map[(uchar)':']=(uchar) MY_LEX_SET_VAR; state_map[0]=(uchar) MY_LEX_EOL; state_map[(uchar)'\\']= (uchar) MY_LEX_ESCAPE; state_map[(uchar)'/']= (uchar) MY_LEX_LONG_COMMENT; state_map[(uchar)'*']= (uchar) MY_LEX_END_LONG_COMMENT; state_map[(uchar)'@']= (uchar) MY_LEX_USER_END; state_map[(uchar) '`']= (uchar) MY_LEX_USER_VARIABLE_DELIMITER; state_map[(uchar)'"']= (uchar) MY_LEX_STRING_OR_DELIMITER; /* Create a second map to make it faster to find identifiers */ for (i=0; i < 256 ; i++) { ident_map[i]= (uchar) (state_map[i] == MY_LEX_IDENT || state_map[i] == MY_LEX_NUMBER_IDENT); } /* Special handling of hex and binary strings */ state_map[(uchar)'x']= state_map[(uchar)'X']= (uchar) MY_LEX_IDENT_OR_HEX; state_map[(uchar)'b']= state_map[(uchar)'B']= (uchar) MY_LEX_IDENT_OR_BIN; state_map[(uchar)'n']= state_map[(uchar)'N']= (uchar) MY_LEX_IDENT_OR_NCHAR; return 0; } static void simple_cs_init_functions(CHARSET_INFO *cs) { if (cs->state & MY_CS_BINSORT) cs->coll= &my_collation_8bit_bin_handler; else cs->coll= &my_collation_8bit_simple_ci_handler; cs->cset= &my_charset_8bit_handler; } static int cs_copy_data(CHARSET_INFO *to, CHARSET_INFO *from) { to->number= from->number ? from->number : to->number; if (from->csname) if (!(to->csname= my_once_strdup(from->csname,MYF(MY_WME)))) goto err; if (from->name) if (!(to->name= my_once_strdup(from->name,MYF(MY_WME)))) goto err; if (from->comment) if (!(to->comment= my_once_strdup(from->comment,MYF(MY_WME)))) goto err; if (from->ctype) { if (!(to->ctype= (uchar*) my_once_memdup((char*) from->ctype, MY_CS_CTYPE_TABLE_SIZE, MYF(MY_WME)))) goto err; if (init_state_maps(to)) goto err; } if (from->to_lower) if (!(to->to_lower= (uchar*) my_once_memdup((char*) from->to_lower, MY_CS_TO_LOWER_TABLE_SIZE, MYF(MY_WME)))) goto err; if (from->to_upper) if (!(to->to_upper= (uchar*) my_once_memdup((char*) from->to_upper, MY_CS_TO_UPPER_TABLE_SIZE, MYF(MY_WME)))) goto err; if (from->sort_order) { if (!(to->sort_order= (uchar*) my_once_memdup((char*) from->sort_order, MY_CS_SORT_ORDER_TABLE_SIZE, MYF(MY_WME)))) goto err; } if (from->tab_to_uni) { uint sz= MY_CS_TO_UNI_TABLE_SIZE*sizeof(uint16); if (!(to->tab_to_uni= (uint16*) my_once_memdup((char*)from->tab_to_uni, sz, MYF(MY_WME)))) goto err; } if (from->tailoring) if (!(to->tailoring= my_once_strdup(from->tailoring,MYF(MY_WME)))) goto err; return 0; err: return 1; } static bool simple_cs_is_full(CHARSET_INFO *cs) { return ((cs->csname && cs->tab_to_uni && cs->ctype && cs->to_upper && cs->to_lower) && (cs->number && cs->name && (cs->sort_order || (cs->state & MY_CS_BINSORT) ))); } static void copy_uca_collation(CHARSET_INFO *to, CHARSET_INFO *from) { to->cset= from->cset; to->coll= from->coll; to->strxfrm_multiply= from->strxfrm_multiply; to->min_sort_char= from->min_sort_char; to->max_sort_char= from->max_sort_char; to->mbminlen= from->mbminlen; to->mbmaxlen= from->mbmaxlen; } static int add_collation(CHARSET_INFO *cs) { if (cs->name && (cs->number || (cs->number=get_collation_number_internal(cs->name)))) { if (!all_charsets[cs->number]) { if (!(all_charsets[cs->number]= (CHARSET_INFO*) my_once_alloc(sizeof(CHARSET_INFO),MYF(0)))) return MY_XML_ERROR; bzero((void*)all_charsets[cs->number],sizeof(CHARSET_INFO)); } if (cs->primary_number == cs->number) cs->state |= MY_CS_PRIMARY; if (cs->binary_number == cs->number) cs->state |= MY_CS_BINSORT; all_charsets[cs->number]->state|= cs->state; if (!(all_charsets[cs->number]->state & MY_CS_COMPILED)) { CHARSET_INFO *newcs= all_charsets[cs->number]; if (cs_copy_data(all_charsets[cs->number],cs)) return MY_XML_ERROR; newcs->levels_for_compare= 1; newcs->levels_for_order= 1; if (!strcmp(cs->csname,"ucs2") ) { #if defined(HAVE_CHARSET_ucs2) && defined(HAVE_UCA_COLLATIONS) copy_uca_collation(newcs, &my_charset_ucs2_unicode_ci); newcs->state|= MY_CS_AVAILABLE | MY_CS_LOADED | MY_CS_NONASCII; #endif } else if (!strcmp(cs->csname, "utf8")) { #if defined (HAVE_CHARSET_utf8mb3) && defined(HAVE_UCA_COLLATIONS) copy_uca_collation(newcs, &my_charset_utf8mb4_unicode_ci); newcs->state|= MY_CS_AVAILABLE | MY_CS_LOADED; #endif } else if (!strcmp(cs->csname, "utf8mb3")) { #if defined (HAVE_CHARSET_utf8mb3) && defined(HAVE_UCA_COLLATIONS) copy_uca_collation(newcs, &my_charset_utf8mb3_unicode_ci); newcs->state|= MY_CS_AVAILABLE | MY_CS_LOADED; #endif } else if (!strcmp(cs->csname, "utf16")) { #if defined (HAVE_CHARSET_utf16) && defined(HAVE_UCA_COLLATIONS) copy_uca_collation(newcs, &my_charset_utf16_unicode_ci); newcs->state|= MY_CS_AVAILABLE | MY_CS_LOADED | MY_CS_NONASCII; #endif } else if (!strcmp(cs->csname, "utf32")) { #if defined (HAVE_CHARSET_utf32) && defined(HAVE_UCA_COLLATIONS) copy_uca_collation(newcs, &my_charset_utf32_unicode_ci); newcs->state|= MY_CS_AVAILABLE | MY_CS_LOADED | MY_CS_NONASCII; #endif } else { uchar *sort_order= all_charsets[cs->number]->sort_order; simple_cs_init_functions(all_charsets[cs->number]); newcs->mbminlen= 1; newcs->mbmaxlen= 1; if (simple_cs_is_full(all_charsets[cs->number])) { all_charsets[cs->number]->state |= MY_CS_LOADED; } all_charsets[cs->number]->state|= MY_CS_AVAILABLE; /* Check if case sensitive sort order: A < a < B. We need MY_CS_FLAG for regex library, and for case sensitivity flag for 5.0 client protocol, to support isCaseSensitive() method in JDBC driver */ if (sort_order && sort_order['A'] < sort_order['a'] && sort_order['a'] < sort_order['B']) all_charsets[cs->number]->state|= MY_CS_CSSORT; if (my_charset_is_8bit_pure_ascii(all_charsets[cs->number])) all_charsets[cs->number]->state|= MY_CS_PUREASCII; if (!my_charset_is_ascii_compatible(cs)) all_charsets[cs->number]->state|= MY_CS_NONASCII; } } else { /* We need the below to make get_charset_name() and get_charset_number() working even if a character set has not been really incompiled. The above functions are used for example in error message compiler extra/comp_err.c. If a character set was compiled, this information will get lost and overwritten in add_compiled_collation(). */ CHARSET_INFO *dst= all_charsets[cs->number]; dst->number= cs->number; if (cs->comment) if (!(dst->comment= my_once_strdup(cs->comment,MYF(MY_WME)))) return MY_XML_ERROR; if (cs->csname && !dst->csname) if (!(dst->csname= my_once_strdup(cs->csname,MYF(MY_WME)))) return MY_XML_ERROR; if (cs->name && !dst->name) if (!(dst->name= my_once_strdup(cs->name,MYF(MY_WME)))) return MY_XML_ERROR; } cs->number= 0; cs->primary_number= 0; cs->binary_number= 0; cs->name= NULL; cs->state= 0; cs->sort_order= NULL; cs->state= 0; } return MY_XML_OK; } #define MY_MAX_ALLOWED_BUF 1024*1024 #define MY_CHARSET_INDEX "Index.xml" const char *charsets_dir= NULL; static int charset_initialized=0; static bool my_read_charset_file(const char *filename, myf myflags) { uchar *buf; int fd; uint len, tmp_len; struct stat stat_info; if (stat(filename, &stat_info) || ((len= (uint)stat_info.st_size) > MY_MAX_ALLOWED_BUF) || !(buf= (uchar*) my_malloc(len,myflags))) return true; if ((fd=my_open(filename,O_RDONLY,myflags)) < 0) goto error; tmp_len=my_read(fd, buf, len, myflags); my_close(fd,myflags); if (tmp_len != len) goto error; if (my_parse_charset_xml((char*) buf,len,add_collation)) { #ifdef NOT_YET printf("ERROR at line %d pos %d '%s'\n", my_xml_error_lineno(&p)+1, my_xml_error_pos(&p), my_xml_error_string(&p)); #endif } my_free(buf, myflags); return false; error: my_free(buf, myflags); return true; } char *get_charsets_dir(char *buf) { const char *sharedir= SHAREDIR; char *res; if (charsets_dir != NULL) strmake(buf, charsets_dir, FN_REFLEN-1); else { if (test_if_hard_path(sharedir) || is_prefix(sharedir, DEFAULT_CHARSET_HOME)) strxmov(buf, sharedir, "/", CHARSET_DIR, NullS); else strxmov(buf, DEFAULT_CHARSET_HOME, "/", sharedir, "/", CHARSET_DIR, NullS); } res= convert_dirname(buf,buf,NullS); return(res); } CHARSET_INFO *all_charsets[256]; CHARSET_INFO *default_charset_info = &my_charset_latin1; void add_compiled_collation(CHARSET_INFO *cs) { all_charsets[cs->number]= cs; cs->state|= MY_CS_AVAILABLE; } static void *cs_alloc(size_t size) { return my_once_alloc(size, MYF(MY_WME)); } static bool init_available_charsets(myf myflags) { char fname[FN_REFLEN + sizeof(MY_CHARSET_INDEX)]; bool error=false; /* We have to use charset_initialized to not lock on THR_LOCK_charset inside get_internal_charset... */ if (!charset_initialized) { CHARSET_INFO **cs; /* To make things thread safe we are not allowing other threads to interfere while we may changing the cs_info_table */ pthread_mutex_lock(&THR_LOCK_charset); if (!charset_initialized) { bzero(&all_charsets,sizeof(all_charsets)); init_compiled_charsets(myflags); /* Copy compiled charsets */ for (cs=all_charsets; cs < all_charsets+array_elements(all_charsets)-1 ; cs++) { if (*cs) { if (cs[0]->ctype) if (init_state_maps(*cs)) *cs= NULL; } } strmov(get_charsets_dir(fname), MY_CHARSET_INDEX); error= my_read_charset_file(fname,myflags); charset_initialized=1; } pthread_mutex_unlock(&THR_LOCK_charset); } return error; } void free_charsets(void) { charset_initialized=0; } uint get_collation_number(const char *name) { init_available_charsets(MYF(0)); return get_collation_number_internal(name); } uint get_charset_number(const char *charset_name, uint cs_flags) { CHARSET_INFO **cs; init_available_charsets(MYF(0)); for (cs= all_charsets; cs < all_charsets+array_elements(all_charsets)-1 ; cs++) { if ( cs[0] && cs[0]->csname && (cs[0]->state & cs_flags) && !my_strcasecmp(&my_charset_latin1, cs[0]->csname, charset_name)) return cs[0]->number; } return 0; } const char *get_charset_name(uint charset_number) { CHARSET_INFO *cs; init_available_charsets(MYF(0)); cs=all_charsets[charset_number]; if (cs && (cs->number == charset_number) && cs->name ) return (char*) cs->name; return (char*) "?"; /* this mimics find_type() */ } static CHARSET_INFO *get_internal_charset(uint cs_number, myf flags) { char buf[FN_REFLEN]; CHARSET_INFO *cs; /* To make things thread safe we are not allowing other threads to interfere while we may changing the cs_info_table */ pthread_mutex_lock(&THR_LOCK_charset); if ((cs= all_charsets[cs_number])) { if (!(cs->state & MY_CS_COMPILED) && !(cs->state & MY_CS_LOADED)) { strxmov(get_charsets_dir(buf), cs->csname, ".xml", NullS); my_read_charset_file(buf,flags); } cs= (cs->state & MY_CS_AVAILABLE) ? cs : NULL; } if (cs && !(cs->state & MY_CS_READY)) { if ((cs->cset->init && cs->cset->init(cs, cs_alloc)) || (cs->coll->init && cs->coll->init(cs, cs_alloc))) cs= NULL; else cs->state|= MY_CS_READY; } pthread_mutex_unlock(&THR_LOCK_charset); return cs; } CHARSET_INFO *get_charset(uint cs_number, myf flags) { CHARSET_INFO *cs; if (cs_number == default_charset_info->number) return default_charset_info; (void) init_available_charsets(MYF(0)); /* If it isn't initialized */ if (!cs_number || cs_number >= array_elements(all_charsets)-1) return NULL; cs=get_internal_charset(cs_number, flags); if (!cs && (flags & MY_WME)) { char index_file[FN_REFLEN + sizeof(MY_CHARSET_INDEX)], cs_string[23]; strmov(get_charsets_dir(index_file),MY_CHARSET_INDEX); cs_string[0]='#'; int10_to_str(cs_number, cs_string+1, 10); my_error(EE_UNKNOWN_CHARSET, MYF(ME_BELL), cs_string, index_file); } return cs; } CHARSET_INFO *get_charset_by_name(const char *cs_name, myf flags) { uint cs_number; CHARSET_INFO *cs; (void) init_available_charsets(MYF(0)); /* If it isn't initialized */ cs_number=get_collation_number(cs_name); cs= cs_number ? get_internal_charset(cs_number,flags) : NULL; if (!cs && (flags & MY_WME)) { char index_file[FN_REFLEN + sizeof(MY_CHARSET_INDEX)]; strmov(get_charsets_dir(index_file),MY_CHARSET_INDEX); my_error(EE_UNKNOWN_COLLATION, MYF(ME_BELL), cs_name, index_file); } return cs; } CHARSET_INFO *get_charset_by_csname(const char *cs_name, uint cs_flags, myf flags) { uint cs_number; CHARSET_INFO *cs; (void) init_available_charsets(MYF(0)); /* If it isn't initialized */ cs_number= get_charset_number(cs_name, cs_flags); cs= cs_number ? get_internal_charset(cs_number, flags) : NULL; if (!cs && (flags & MY_WME)) { char index_file[FN_REFLEN + sizeof(MY_CHARSET_INDEX)]; strmov(get_charsets_dir(index_file),MY_CHARSET_INDEX); my_error(EE_UNKNOWN_CHARSET, MYF(ME_BELL), cs_name, index_file); } return(cs); } /** Resolve character set by the character set name (utf8, latin1, ...). The function tries to resolve character set by the specified name. If there is character set with the given name, it is assigned to the "cs" parameter and false is returned. If there is no such character set, "default_cs" is assigned to the "cs" and true is returned. @param[in] cs_name Character set name. @param[in] default_cs Default character set. @param[out] cs Variable to store character set. @return false if character set was resolved successfully; true if there is no character set with given name. */ bool resolve_charset(const char *cs_name, CHARSET_INFO *default_cs, CHARSET_INFO **cs) { *cs= get_charset_by_csname(cs_name, MY_CS_PRIMARY, MYF(0)); if (*cs == NULL) { *cs= default_cs; return true; } return false; } /** Resolve collation by the collation name (utf8_general_ci, ...). The function tries to resolve collation by the specified name. If there is collation with the given name, it is assigned to the "cl" parameter and false is returned. If there is no such collation, "default_cl" is assigned to the "cl" and true is returned. @param[out] cl Variable to store collation. @param[in] cl_name Collation name. @param[in] default_cl Default collation. @return false if collation was resolved successfully; true if there is no collation with given name. */ bool resolve_collation(const char *cl_name, CHARSET_INFO *default_cl, CHARSET_INFO **cl) { *cl= get_charset_by_name(cl_name, MYF(0)); if (*cl == NULL) { *cl= default_cl; return true; } return false; } /* Escape string with backslashes (\) SYNOPSIS escape_string_for_mysql() charset_info Charset of the strings to Buffer for escaped string to_length Length of destination buffer, or 0 from The string to escape length The length of the string to escape DESCRIPTION This escapes the contents of a string by adding backslashes before special characters, and turning others into specific escape sequences, such as turning newlines into \n and null bytes into \0. NOTE To maintain compatibility with the old C API, to_length may be 0 to mean "big enough" RETURN VALUES (size_t) -1 The escaped string did not fit in the to buffer # The length of the escaped string */ size_t escape_string_for_mysql(CHARSET_INFO *charset_info, char *to, size_t to_length, const char *from, size_t length) { const char *to_start= to; const char *end, *to_end=to_start + (to_length ? to_length-1 : 2*length); bool overflow= false; #ifdef USE_MB bool use_mb_flag= use_mb(charset_info); #endif for (end= from + length; from < end; from++) { char escape= 0; #ifdef USE_MB int tmp_length; if (use_mb_flag && (tmp_length= my_ismbchar(charset_info, from, end))) { if (to + tmp_length > to_end) { overflow= true; break; } while (tmp_length--) *to++= *from++; from--; continue; } /* If the next character appears to begin a multi-byte character, we escape that first byte of that apparent multi-byte character. (The character just looks like a multi-byte character -- if it were actually a multi-byte character, it would have been passed through in the test above.) Without this check, we can create a problem by converting an invalid multi-byte character into a valid one. For example, 0xbf27 is not a valid GBK character, but 0xbf5c is. (0x27 = ', 0x5c = \) */ if (use_mb_flag && (tmp_length= my_mbcharlen(charset_info, *from)) > 1) escape= *from; else #endif switch (*from) { case 0: /* Must be escaped for 'mysql' */ escape= '0'; break; case '\n': /* Must be escaped for logs */ escape= 'n'; break; case '\r': escape= 'r'; break; case '\\': escape= '\\'; break; case '\'': escape= '\''; break; case '"': /* Better safe than sorry */ escape= '"'; break; case '\032': /* This gives problems on Win32 */ escape= 'Z'; break; } if (escape) { if (to + 2 > to_end) { overflow= true; break; } *to++= '\\'; *to++= escape; } else { if (to + 1 > to_end) { overflow= true; break; } *to++= *from; } } *to= 0; return overflow ? (size_t) -1 : (size_t) (to - to_start); } #ifdef BACKSLASH_MBTAIL static CHARSET_INFO *fs_cset_cache= NULL; CHARSET_INFO *fs_character_set() { if (!fs_cset_cache) { char buf[10]= "cp"; GetLocaleInfo(LOCALE_SYSTEM_DEFAULT, LOCALE_IDEFAULTANSICODEPAGE, buf+2, sizeof(buf)-3); /* We cannot call get_charset_by_name here because fs_character_set() is executed before LOCK_THD_charset mutex initialization, which is used inside get_charset_by_name. As we're now interested in cp932 only, let's just detect it using strcmp(). */ fs_cset_cache= !strcmp(buf, "cp932") ? &my_charset_cp932_japanese_ci : &my_charset_bin; } return fs_cset_cache; } #endif /* Escape apostrophes by doubling them up SYNOPSIS escape_quotes_for_mysql() charset_info Charset of the strings to Buffer for escaped string to_length Length of destination buffer, or 0 from The string to escape length The length of the string to escape DESCRIPTION This escapes the contents of a string by doubling up any apostrophes that it contains. This is used when the NO_BACKSLASH_ESCAPES SQL_MODE is in effect on the server. NOTE To be consistent with escape_string_for_mysql(), to_length may be 0 to mean "big enough" RETURN VALUES ~0 The escaped string did not fit in the to buffer >=0 The length of the escaped string */ size_t escape_quotes_for_mysql(CHARSET_INFO *charset_info, char *to, size_t to_length, const char *from, size_t length) { const char *to_start= to; const char *end, *to_end=to_start + (to_length ? to_length-1 : 2*length); bool overflow= false; #ifdef USE_MB bool use_mb_flag= use_mb(charset_info); #endif for (end= from + length; from < end; from++) { #ifdef USE_MB int tmp_length; if (use_mb_flag && (tmp_length= my_ismbchar(charset_info, from, end))) { if (to + tmp_length > to_end) { overflow= true; break; } while (tmp_length--) *to++= *from++; from--; continue; } /* We don't have the same issue here with a non-multi-byte character being turned into a multi-byte character by the addition of an escaping character, because we are only escaping the ' character with itself. */ #endif if (*from == '\'') { if (to + 2 > to_end) { overflow= true; break; } *to++= '\''; *to++= '\''; } else { if (to + 1 > to_end) { overflow= true; break; } *to++= *from; } } *to= 0; return overflow ? (ulong)~0 : (ulong) (to - to_start); }